SU1121232A1 - Ozonizer - Google Patents

Abstract

An ozone generator containing an ozone generator, a high-voltage transformer associated with its secondary windings with electrodes of an ozone generator connected to an ozone concentration sensor, characterized in that, in order to increase the reliability of the ozonizer by stabilizing the ozone concentration, it also contains an autotransformer with controlled romes including interconnected voltage stabilization unit and comparison unit, with a part of the voltage stabilizer unit windings located between the controlled frames vtotransformatora,-connected to the primary windings of high voltage transformer, and winding bias actuated renovated through stabilization block voltage and the comparator soedinet us yield-concentration sensor with ozone.

Description

The invention relates to a device for producing ozone by synthesis from oxygen or air and can be used in the chemical and food industries. A known ozonizer consisting of a power source containing an induction coil connected in series with transformers, the magnetic wire of which has a gap. The secondary winding of the transformer is connected to the electrodes of the ozone generator 1. The ozonizer containing the ozone generator, a high-voltage transformer associated with the secondary windings of the ozone generator electrodes connected to the ozone concentration sensor 2, however, is the closest to the invention. Voltage regulation in known devices is not sufficient to put the ozone generator into operation, since the Nascene chokes can regulate the voltage Only if the load current passing through the AC choke coil. The load current occurs at a certain high voltage when a glow discharge occurs between the electrodes of the ozone generator. A prerequisite for the introduction of ozone generators into the operating mode is a gradual increase in voltage from a certain value, less than the voltage of occurrence of a glow discharge, to the nominal operating voltage. The purpose of the invention is to increase the reliability of the ozonizer by stabilizing the concentration of ozone. The goal is achieved by the fact that the ozonizer additionally contains an autotransformer with a controlled PM, including an interconnected voltage stabilization unit and a regulation unit, while part of the turns of the national stabilization unit located between the controlled transformers of the transformer AV is connected to the primary high-voltage windings the transformer, and the bias windings of the controlled belts through the voltage stabilization unit and the comparison unit are connected to the output of the ozan concentration sensor. The drawing shows a schematic diagram of the ozonizer. | . The ozonizer contains an auto-transformer 1 with magnetic switching, a high-voltage transformer 2, an ozone generator 3, an automatic control and voltage stabilization unit 4, a voltage comparison unit 5, an ozone concentration sensor 6, a part of the auto-transformer 1 coils 7 located between controlled frames 8 and 9 s windings of magnetization 10 and 11. The coils 7 are connected to the primary winding 12 of the high-voltage transformer 2. The secondary winding 13 of the high-voltage transformer 2 is connected to the electrodes of the generator 3. The autotransformer 1 with magnetic oh commutation is made mainly three-phase symmetrical. The bias windings 10 and 11 of the controlled belts 8 and 9 of the autotransformer 1 are connected to block 4, the input of which is connected via the voltage comparison block 5 to the output of the ozone concentration sensor 6. The device works as follows. The smooth introduction of the ozonizer into the mode, automatic regulation and stabilization of the ozonizer parameters is carried out by means of a blocker. 5 comparison of the voltage, which includes the setting device, made in the form of an adjustable resistor and the unit 4 of automatic control and voltage stabilization (block 5 in the drawing is not disclosed). The biasing of the belts 8 and 9 of the autotransformer 1 is carried out by direct current. When the medium ryme is saturated by magnetization, the magnetic flux is closed through the upper yoke 9, the adjusting turns 7 have a maximum current coupling, they are induced by an electromotive force, which is added to the emf induced in the turns of the unregulated winding. In this case, the maximum voltage is applied to the turns of the primary winding 12 of the high-voltage transformer 2. If, however, the upper yoke 9 is saturated, the adjusting turns 7 are excluded from the magnetic flux circuit, as it closes through the average pull 8 and to the turns of the primary winding 12 of the high voltage transformer 2 the minimum voltage is applied, corresponding to the EMF induced in unregulated turns of the autotransformer. the degree of saturation of the controlled belts 8 and 9 is carried out by smooth amplitude control within the prescribed voltage limits. The voltage waveform in the design of a symmetric autotransformer with magnetic sine switching is far. The adjustable voltage received on the part of the turns 7 of the autotransformer 1 located between the controlled rods 8 and 9 is fed to the primary winding 12 of the high-voltage transformer 2 and transformed to its secondary winding 13, which is connected to the electrodes of the ozone generator 3. When the magnitude of the high voltage applied to the electrodes of the ozone generator 3 reaches a minimum predetermined value, a glow discharge appears between the electrodes. An increase in the voltage applied to the electrodes of the ozone generator 3 is produced prior to the minimized operating voltage. With constant parameters of the source gas entering the ozone generator 3 and a constant value of the voltage applied to the electrodes of the ozone generator, the ozone concentration is maintained at a stable level. When changing the parameters of the source gas (pressure, oxygen percentage, etc.), or deviating the voltage at the output of the high-voltage transformer 2, the xzon concentration deviates from the set value. The error signal from the ozone concentration sensor 6 is fed to the voltage comparison unit 5, and then to the automatic control and stabilization unit 4. Depending on the sign of the error signal from the ozone concentration sensor 6, the autotransformer 1 by means of the voltage comparison unit 5 and the automatic control and stabilization unit 4. voltage by reversal of magnets 8 and 9 increases or decreases the voltage at the input of the high voltage transformer 2 and, accordingly, on the electrodes of the ozone generator 3 to the value at which the set value of the ozone concentration is restored and thus stabilized. Since the autotransformer 1 with magnetic and magnetic switching, due to the presence of spaced windings, has a significant inductive resistance, it compensates for the capacitance of the ozone generator, therefore, no additional throttle is required, therefore, the device losses are reduced and its efficiency is increased. The invention allows to significantly increase the range of smooth voltage regulation on the ozone generator electrodes, to stabilize the ozone concentration and to increase the efficiency of the ozonizer.

Claims (1)

An OZONATOR containing an ozone generator, a high voltage transformer connected by its secondary windings to the electrodes of an ozone generator connected to an ozone concentration sensor, characterized in that, in order to increase the reliability of the ozonizer by stabilizing the ozone concentration, it further comprises an autotransformer with controlled yokes, including interconnected voltage stabilization unit and a comparison unit, while part of the turns of the voltage stabilization unit located between the controlled yokes of the autos a transformer, connected to the primary windings of the high-voltage transformer, and the magnetization windings controlled by the yoke through the voltage stabilization unit and the comparison unit are connected to the output of the ozone concentration sensor.